Project description:To date, the success rate of serial animal cloning has decreased with increasing iterations and recloning has failed in all species after a few generations. This has suggested that recloning might be impossible because of the accumulation of lethal genetic or epigenetic abnormalities. Here, we carried out repeated recloning in the mouse using our somatic cell nuclear transfer method combined with a histone deacetylase inhibitor. The success rate of recloning did not decrease even after 25 iterations and more than 500 viable offspring have been obtained from a single original donor. Although the genomic reprogrammability of somatic cell nuclei did not improve, reprogramming errors or clone-specific abnormalities did not accumulate with recloning. Our results provide the first evidence that iterative recloning is possible, suggesting that animals might be able to be recloned indefinitely.

Project description:Gene expression profile variation between 4 BCR-Abl transduced cell lines: <br> 1-Mouse DA1-3b cell line as reference, <br> 2-DR1 imatinib resistant clone with E255K BCR-abl mutation<br> 3-DRBMSR 2 dasatinib resistant clone with E255K and T315I BCR-Abl mutation.<br> 4-DRBMSR 7 dasatinib resistant clone with E255K and T315I and V299L BCR-Abl mutation<br> <br> BCR-ABL is an oncogenic tyrosine kinase involved in the development of chronic myelogenous leukaemia (CML).

Project description:The goal of this study was to identify transcripts, which are differentially regulatulated in the presence and absence of Focal Adhesion Kinase. As Focal Adhesion Kinase activity can depend upon cell density (Snijder et al. Nature 2009), biological replicates where cells, were seeded very sparsely or confluently, were used. Focal Adhesion Kinase Knockout (ATCC CRL-2644) and Rescue Cells (Sieg et al. 1998, clone DA2) were seeded at two different concentrations. Replicas refer to biological replicates, performed on different days. Only one single technical replicate has been done per biological replicate.

Project description:Despite high survival rates in pediatric acute lymphoblastic leukemia (ALL), relapse remains a leading cause of cancer-related death in children. Many patients suffer from adverse drug effects during treatment and other complications later in life, and would benefit from improved relapse prediction at diagnosis. We performed whole genome sequencing of samples collected at diagnosis, relapse(s) and remission from 29 Nordic patients with pediatric ALL. Somatic mutations were called using individually matched remission samples as controls, and allelic expression of the mutations in the ALL cells was assessed using RNA-sequencing. These analyses identified 29 previously known ALL driver genes, of which nine genes carried recurrent protein-coding mutations in our sample set, and 20 mutated driver genes occurred in individual samples. We detected putative non-coding mutations in regulatory regions of seven additional genes that have not been described previously in ALL. We observed an increased burden of somatic mutations at relapse. Cluster analysis of hundreds of somatic mutations per sample revealed three distinct evolutionary trajectories during ALL progression. In an “ancestral clone trajectory”, the major cell clone at relapse originated from a founder clone that was not detectable at diagnosis. In a “rising diagnostic clone trajectory”, a minor cell clone at diagnosis expanded to form the major cell clone at relapse. In a “persistent diagnostic clone trajectory”, the major cell clone at diagnosis persisted during treatment until relapse. The evolutionary trajectories provide insight into the mutational mechanisms leading relapse in ALL and could offer biomarkers for improved risk prediction in individual patients.

Project description:We investigated the transcriptome obtained from microarray analysis of human ejaculates used in an IVF programme. The gene expression profiles are to be correlated with successful/failed induction of oocyte fertilisation and/or pregnancy. Since human ejaculates are often contaminated with so-called 'round cells' (mostly somatic cells such as leukocytes and macrophages, but also immature germ cells), a considerable part of the gene expression pertains not to spermatozoa. Rigorous statistical analysis of the data is to be used to extract genes that correlate with fertilization success. A set of 25 human ejaculates (12 pregnancy; 3 biochemical pregnancy; 7 oocyte fertilization; 3 no oocyte fertilization) from an IVF procedure were used for RNA extraction and microarray hybridization.

Project description:We collected monocytes from peripheral blood of 5 chronic lymphocytic leukemia (CLL) patients and 5 healthy donors and we performed gene expression analysis by microarray. Comparison of gene expression profiles (GEPs) between CLL-derived and normal monocytes was used to discover molecular abnormalities in this nonmalignant immune cellular population in leukemia-bearing patients. Although analysed cells were not part of the malignant clone, in unsupervised hierarchical clustering analysis, GEPs of normal monocytes were clearly distinguishable from those of monocytes obtained from CLL patients. Supervised analysis identified 65 genes significantly up-regulated and 48 genes down-regulated in CLL monocytes compared with monocytes from normal controls (FC=2, p<0.05). Modification of gene expression profile would imply impairment of phagocytosis and production of immunosuppressive mediators in CLL-derived monocytes. The alterations described in our study further contribute to characterize the complexity of factors potentially involved in acquired immune deficiency of CLL patients. Large-scale gene expression profiling (GEP) was performed on total RNA extracted from purified CD14+ monocytes (RNeasy Mini kit Plus, QIAGEN, Valencia, CA, USA) isolated from 5 individual CLL patients and 5 healthy controls by hybridization on 4X44K Whole Human Genome Microarray (Agilent Technologies, Palo alto, CA). Fluorescence data were analysed with Feature Extraction Software v.10.5 (Agilent Technologies) an QC Chart tool v.1.3. Agglomerative two-dimensional clustering analysis and supervised analyses based on t-test were performed using Gene Spring GX (Agilent) software. Genes were defined as differentially expressed between groups at a significant level of p<0.05 and with a fold change cut off ± 2 in all the pair wise comparisons.

Project description:Hepatocellular carcinoma (HCC) is the third leading cause of cancer-related death worldwide. We sequenced and analyzed the whole genomes of primary HCCs. To examine the influence of transcription-coupled repair (TCR) on somatic substitution patterns in HCC, we performed expression microarrays analysis and compared gene expression levels and the number of substitutions in 7 HCCs. Seven primary HCC were analyzed and compared with somatic substituion numbers.

Project description:Pesticides are continuously released into the environment, with possible long-term consequences on aquatic organisms. One of the pesticides still applied in several crops in some countries is the fungicide carbendazim, ending up in surface waters with concentrations reaching 5 µg/L. Daphnia magna (clone k6) was used in this study as a model organism and it was exposed to a sub-lethal concentration of carbendazim (5 µg/L) for twelve generations. Gene expression alterations induced by this compound were assessed in the F0 and F12 generations using D. magna custom microarrays. Results revealed that carbendazim caused changes at the gene expression level in both generations. Genes involved in response to stress, DNA replication/repair, neurotransmission, protein biosynthesis, ATP production, lipids and carbohydrates metabolism were the most affected in both F0 and F12, although a lower number of differentially expressed genes were observed in the F12 generation exposed to carbendazim. The exposure of daphnids to carbendazim did not cause a stable change in gene expression from F0 to F12 generations. Effects at the gene expression level were early detected at the F0 generation after a short-time exposure (10 days), highlighting the advantages of using high throughput tools as early warning analysis but also providing information on chemical mode of action, which can add value in risk assessment procedures. For the microarray experiment, neonates with less than 24h were picked from the F0 and F12 generations from both clean medium and carbendazim. Three replicates per each treatment were used and consisted of 5 daphnids aging 10 days old. A total of three replicates per treatment were used and each biological replicate was individually hybridized on the array. A single-color design was used, using the Agilent one-color RNA Spike-In Kit (AgilentTechnologies, Santa Clara, CA, USA), following the manufacturers protocol.

Project description:The piRNA pathway controls transposon expression in animal germ cells, thereby ensuring genome stability over generations. piRNAs are maternally deposited and required for proper transposon silencing in adult offspring. However, a long-standing question in the field is the precise function of maternally deposited piRNAs and its associated factors during embryogenesis. Here, we probe the spatio-temporal expression patterns of several piRNA pathway components during early stages of development. Amongst those, factors required for transcriptional gene silencing (TGS) showed ubiquitous abundance in somatic and pole cells throughout the first half of embryogenesis. We further analysed the transcriptomes of various embryo stages and correlated these with the presence of selected chromatin marks. We found that a number of transposon families show bursts of transcription during early embryonic stages. Transposons heavily targeted by maternally deposited piRNAs accumulated repressive chromatin marks following their spike in expression. Furthermore, depletion of maternally deposited Piwi protein in early embryos resulted in increased expression of transposons targeted by inherited piRNAs and was accompanied by a strong loss of repressive chromatin marks at coding sequences. Overall, our data suggests a pivotal role for the piRNA pathway in transposon defence during Drosophila embryogenesis in somatic cells.

Project description:Exposure to TCDD early in development produces reproductive abnormalities and decreased reproductive capacity in males in subsequent generations. We used WGBS to investigate differential methylation in testicular tissue and identified distinct multigenerational and transgenerational methylation changes due to legacy TCDD exposure in males.